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Evolutionary dynamics of circular RNAs in primates

Gabriela Santos-Rodriguez, Irina Voineagu, Robert J Weatheritt

2021eLife40 citationsDOIOpen Access PDF

Abstract

Many primate genes produce circular RNAs (circRNAs). However, the extent of circRNA conservation between closely related species remains unclear. By comparing tissue-specific transcriptomes across over 70 million years of primate evolution, we identify that within 3 million years circRNA expression profiles diverged such that they are more related to species identity than organ type. However, our analysis also revealed a subset of circRNAs with conserved neural expression across tens of millions of years of evolution. By comparing to species-specific circRNAs, we identified that the downstream intron of the conserved circRNAs display a dramatic lengthening during evolution due to the insertion of novel retrotransposons. Our work provides comparative analyses of the mechanisms promoting circRNAs to generate increased transcriptomic complexity in primates.

Topics & Concepts

BiologyTranscriptomeEvolutionary biologyIntronComputational biologyGeneticsConserved sequenceCircular RNAGeneDe novo transcriptome assemblyRNA-SeqRNAGenomeEvolutionary dynamicsPhylogeneticsComparative biologyDynamics (music)Gene expressionHuman evolutionary geneticsRegulation of gene expressionDevelopmental biologySequence alignmentComparative genomicsDNA microarrayPrimateSyntenyHuman geneticsMolecular evolutionGenomicsSequence analysisDNA sequencingGenome evolutionSystems biologySequence (biology)Circular RNAs in diseasesCancer-related molecular mechanisms researchMicroRNA in disease regulation
Evolutionary dynamics of circular RNAs in primates | Litcius